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8/9/2019 LIGHTING SYSTEM COURSE
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LIGHTING SYSTEM
COURSE
Engineering for the Petroleum and Process IndustriesEngineering for the Petroleum and Process Industries
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CONTENTS:
1. INTRODUCTION2. BASIC DEFINITIONS
3. LIGHTING SOURCES & SCHEMES4. LIGHTING LUMENAIRS IN OIL &
GAS FIELD & LIGHTNGINTSALLTION DETAILS5. LIGHTING SYSTEM DESIGN
6. LIGHTIGN CIRCUITS
DISTRIBUTION CRITIRIA
7. PANEL SCHEDULE
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1. INTRODUCTION
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1. INTRODUCTION:The purpose of the lighting is to serve the needs of
persons.
Quality of illumination implies that all luminances are
designed to contribute favorably to visual performance,
visual comfort, ease of seeing and safety for specificvisual task involved.
Glare, diffusion, direction, shadows, uniformity, color,
luminance and lumenance ratios have significant effectsof visibility & should be considered during lighting
design
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2. BASIC DEFINITIONS
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2.1. WHAT IS LIGHT?Light is the medium through which we can recognize
the world surrounding us
In physical words: Light is a kind of electromagnetic
radiation that consists of ripples or waves that are
propagated in an omnipresent electric and magnetic
field, and travelling away from its source uniformly in all
directions, unless intercepted.
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2.2. NATURE OF LIGHTVarious forms of incandescent bodies are the source of
light, and the light emitted by such bodies depend upon
its temperature.
As the temperature increases the wavelength of theradiated energy becomes smaller and smaller and
enters into the range of the wavelength of light.
The wavelength which can produce the sensation of
light varies from 380nm to 780nm
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White light emitted by the sun consists of a mixture of various
wavelengths in the visible spectrum:
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2.3. THE FOUR BASIC LIGHTIN
QUANTITIES
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2.3.1. luminous flux :
The amount of light radiated per second by a light source
Unit: lumen (lm) symbol : (Φ)
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2.3.2. luminous Intensity :
The amount of light radiated by a light source in a given
direction
Unit: candela (cd) or (lumen/steradian) symbol : (I)
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2.3.3. Illuminance:The amount of light falling on a unit of surface
Unit: lux (lux=lm/m2) symbol : (E)
Illuminance is independent of the direction from which the
luminous flux reaches the surface
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2.3.4. luminance:
The amount of light radiated by a unit of apparent surface
in a given direction
Unit: candela per m2 (cd/m2) symbol : (L)
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2.4. LAMP EFFICACY OR LUMINOUS
EFFECACY:Luminous efficacy (lm/W) = Luminous flux
Electric power dissipated
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2.5. LIGHT LAWS:2.5.1. INVERSE SQUARE LAW :Illumination is inversely proportional to the square of the
distance between the source & the surface
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2.5.2. COSINE LAW OF INCIDENCE :Illumination is proportional to the cosine of the angle of
incidence
E α Cos ( Ө )
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So, form the previous two laws we will find that :
E = Emax Cos ( Ө )hence,
E = I Cos3 ( Ө )h2
where : E : Illumination at any point
I : luminous intensity of a given source
h : the vertical distance between source & surface
Ө : the angle of incidence
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2.6. CO-EFFECIENT OF UTILIZATION (C.U.):It is the ratio of the lumen actually received by the
working plan to the total lumens emitted by the source
C.U. = Φ received by the working planΦ
emitted by the source
2.7. MAINTENANCE FACTOR (M.F.):The effective candle power of all lamps due to
accumulation of dust or dirt on the lamps globes,reflectors, walls & ceiling is taken into account by
including the maintenance factor.
M.F. = L.L.D ( Lumen Lamp Deprecation ) x L.D.D (Lumen Dirt Deprecation )
MF ~ 0.8 for indoor lighting
MF ~ 0.6 0.7 for outdoor lighting
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3. LIGHTING SOURCES &
SCHEMES
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3.1. LIGHTING SOURCES :There are three (3) basic types of light sources used today;
incandescent, fluorescent and high-intensity discharge lamps.
3.1.1 INCANDESCENT LAMPS :
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- Incandescent lamps produce light by electrically heating
high-resistance tungsten filaments to intense brightness.
- Overall efficacy ranges from about 15 to 23 lumens per watt.
- Lamp life ranges from 750 to 1000 hours for standard generalpurpose lamps.
- It is important that incandescent
lamps conform to the supplyvoltage a change of only
a few volts seriously affects
both life and light output.
- Incandescent lamps emit
the majority of the energy
in the red and infrared area
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- Deferent types of incandescent lamps:
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3.1.2. FLUORESCENT LAMPS :- Fluorescent lamps produce light by establishing an arc
between two (2) electrodes in an atmosphere of very low
pressure mercury vapor in a chamber (the glass tube).
This low pressure discharge produces Ultraviolet radiation atwave lengths which excite crystals of phosphor (the white
powder) lining the tube wall. The fluorescent phosphor powder
convert the ultraviolet energy into visible (light) energy.
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- Efficiency ranges from about 45 to 80 lumens per watt.
- Rated life ranges from about 7500 hours to 30,000 hours.- Lamp performance is influenced by the character of the
ballast and luminaire, line voltage, ambient temperature,
burning hours per start and air movement.
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- Control gear for fluorescent lamps
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3.1.3. HIGH INTENSITY DISCGARGE LAMPS :- High-intensity electrical discharge lamps produce light when ahigh pressure arc is passed through a gas vapor
-Three (3) types of lamps are of the high-intensity discharge
type; mercury, metal halide and high-pressure sodium.
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3.1.3.1 MERCURY LAMPS:
- The early mercury vapor lamps emitted acharacteristically blue-green color of light, which was
practical only for industrial areas, street lighting, and
general outdoor applications where color quality of the light
was not too important.
- General lighting mercury lamps are now available in
wattages from 50 to 1000 watts
- Typical efficiencies range from 30 to 63 lumens per watt,
not including ballast power loss.
- "Clear" mercury lamps produce light rich in yellow and
green tones but almost entirely lacking in red. Phosphor
coated lamps provide improved color and have been
popular.
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- TYPES OF MERCURY VAPOUR LAMPS :
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3.1.3.2. METAL HALIDE LAMPS:
- This lamp employs iodides of sodium, thallium andindium, in addition to mercury, and results in a lamp design,
which generates more than 50% more light than mercury
lamps, and with a much better color quality.
- Metal halide lamps are similar in construction to mercury
lamps. They differ in that the arc tube contains various
metal halides in addition to mercury.
- They are available with either clear or phosphor coated
bulbs from 175 to 1500 W.
- Present efficiencies range from 70 to 125 lumens per
watt, not including ballast power loss
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-Compared to a clear mercury lamps, the metal halideadditives improve the efficiency and color. Further color
improvement is achieved with phosphor coatings
- Types of metal halide lamps :
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3.1.3.3. HIGH PRESSURE SODUIM
LAMPS:- The high pressure sodium lamp has the highest light
producing efficiency of any commercial source of white
light.
- High pressure sodium lamps produce light by electricity
passing through sodium vapor.
- They are presently available in sizes of 50 to 1000 W.
- Typical initial efficiencies are about twice that of mercury
vapor: from 80 to 140 lumens per watt, not including ballastpower loss.
-The color of light produced by this lamp is golden white.
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- Types of high pressure sodium lamps :
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4. LIGHTING LUMENAIRS IN OIL
& GAS FIELD & LIGHTNG
INTSALLTION DETAILS
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What is a luminaire :It is a complete lighting unit with the following functions:
- Contains lamps
- Contains gear
- Supply energy to lamp(s)
- Distribute light
- Withstand ambient conditions
- Permit safe/ easy installation
- Permit safe/ easy maintenance
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A luminaire may be classified by its application to :
- Outdoor applications
Local lighting
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Street lighting
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Area lighting
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- Indoor applications
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Also luminaire may be classified by its method of mounting :
1. Ceiling mounted fixture :
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2. Pendent mounted fixture :
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3. Bracket mounted fixture :
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4. Platform mounted fixture :
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4. Platform mounted fixture, Cont. :
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5. Ground mounted fixture :
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5. Ground mounted fixture, Cont. :
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6. Flood lighting fixture :
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6. Flood lighting fixture, Cont. :
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7. Street lighting fixture :
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7. Street lighting fixture, Cont. :
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8. Convenience outlet :
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8. Convenience outlet, Cont. :
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5. LIGHTING SYSTEM DESIGN
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Lighting system design steps :1. Project analysis:
- Read project lighting specification
- project plot plan analysis
- Model viewing
2. Lamp selection
3. Luminaire selection
4. Determination of number of fixtures by lighting software
5. Implementation of the number & types of luminaires in a layout
6. Appling lighting distribution criteria to determine the no. of circuits & the
feeding cable size
7. Add the distribution information in the layout
In this section we will discuss steps no. 4 & 5 in details while steps no. 6 & 7 will be
discussed in the next section
4. Determination of number of fixtures by lighting
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y g g
software :
In our calculations we will use the chalmlite software
Getting started
CHALMLITE SOFTWARE
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Working Environment
CHALMLITE SOFTWAREI d C l l i
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Indoor Calculation
CHALMLITE SOFTWAREI d C l l ti
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Indoor Calculation
CHALMLITE SOFTWAREOutdoor Calculation
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Outdoor Calculation
CHALMLITE SOFTWARELuminaire Selection
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Luminaire Selection
CHALMLITE SOFTWARELuminaire Selection
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Luminaire Selection
CHALMLITE SOFTWARELuminaire Selection
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Luminaire Selection
CHALMLITE SOFTWARELuminaire Selection
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CHALMLITE SOFTWAREFlood Light Method
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g
CHALMLITE SOFTWAREFlood Light Method
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CHALMLITE SOFTWAREFlood Light Method
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CHALMLITE SOFTWAREFlood l ight method
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CHALMLITE SOFTWAREGrid Definition
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CHALMLITE SOFTWAREGrid Definition
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CHALMLITE SOFTWAREGrid Definition
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CHALMLITE SOFTWAREResults Presentation
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CHALMLITE SOFTWARECalculation Report
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CHALMLITE SOFTWARECalculation Report
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5. Implementation of the number & types of luminaires
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p yp
in a layout :
In this step the calculated luminaires number & types in the previous
step will be presented in the layout .
Contents of the lighting layout:
1. Reference drawings
2. Notes3. Legend
4. Fixture identification number
5. Panel identification number
6. Scale bar
7. Selected area plot plan8. Fixtures & sockets distribution
9. lighting details if needed
LIGHTING LAYOUT
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LIGHTING LAYOUT
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6. LIGHTIGN CIRCUITS
DISTRIBUTION CRITIRIA
IMPORTANT INFORMATION :
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1. Normal lighting circuits should be separated fromEmergency lighting circuits
2. Normal lighting circuits & Emergency lighting circuits may
be fed from 1ph or 3ph circuits
3. Street lighting, Flood lighting & high mast lighting should
be fed form 3ph circuits
4. Normally, lighting circuits breaker rating is 20A for 1ph &
3ph ct.5. Don’t load the breaker with more than 80% of its rating
6. Don’t use the max loading capacity of the breaker
7. Follow the required distribution philosophy in the
specification
8. For sockets, no more than 6 socket per circuit
LIGHTING CIRCUITS DISTRIBUTION STEPS :
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1. Count all types of lighting fixtures (Normal, Emergency &flood)
2. Determine the max no. of fixture per circuit
3. Keep a spare in the loading capacity of the breaker
4. Apply the distribution philosophy for the selected area
5. Try to equalize the loads between the 3phases6. Size the circuit cable based on the circuit length & the
voltage drop
7. Size the conduit based on the calculated cable size
8. Implement your data on the layout to get what we call
detailed lighting layout
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Detailed Lighting layout
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7. PANEL SCHEDULE
WHAT IS PANEL SCHEDULE?
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Panel schedule is a data arrangement captured from thedetailed lighting layout
PANEL SCHEDULE STEPS :
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1. Determine the type of the panel (indoor lighting, outdoorlighting, power )
2. Get the number of circuits determined in the previous
section
3. Provide 10% spare of the used circuits
4. Provide 10% space of the used circuits
5. Determine the nature of the feeding supply during the
emergency cases (for lighting panel)
If Diesel Generator use separate emergency bus bars
if Back up Batteries use pilot wire
6. Arrange your data the schedule keeping balancing
between phases in your mind
PANEL SCHEDULE STEPS, Cont. :
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7. Size the dry type transformer based on the calculatedtotal power
8. Size both the primary side & secondary side cable based
on the transformer rating
9. Size the main breaker based on the transformer rating
10. Fill any other missing data in the drawing
Dry Type Transformer sizing :
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1. Get the transformer connected load from panel schedulein (kVA)
2. Determine the demand factor ( = 100% )
3. Determine the demand load in (KVA)
Demand load = Tr. Connected load / Demand factor
4. Determine the percentage of spare capacity (= 20%)
5. Determine the spare capacity in (KVA)
Spare capacity = 20% * Demand load (KVA)
6. Determine the transformer load factor (= 0.8)
Dry Type Transformer sizing, Cont. :
7. Determine the min transformer capacity (KVA)
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Min Tr. Capacity = Demand load + spare capacity
Tr. Load factor
8. Determine the nearest upper standard transformer rating
(KVA)
Standard Rating of Dry Type Transformer :
Indoor Lighting Panel schedule
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Outdoor Lighting Panel schedule
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Outdoor Lighting Panel schedule
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Schematic Diagram of the Photo Cell
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Power Panel schedule
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Single Line Diagram of Distribution Panel
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Deferent Types of Distribution panels :
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Outdoor Panels
Deferent Types of Distribution panels :
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Indoor Panels
Deferent Types of Dry Type Transformers :
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